CN102737486B - remote control system and remote control method capable of switching different pointing modes - Google Patents

Abstract

The invention discloses a remote control method and a remote control system capable of switching different pointing modes, wherein the remote control method comprises the following steps: a first wireless transmission module of a remote controller transmits a first wireless signal to an electronic device by utilizing a wireless transmission technology, wherein the first wireless signal comprises a first pointing mode control code; a second wireless transmission module of the remote controller transmits a second wireless signal to the electronic device by using a wireless transmission technology, wherein the second wireless signal comprises a second directional mode control code; and the electronic device controls a display object to move in a first pointing mode or a second pointing mode respectively according to the received first pointing mode control code or the second pointing mode control code and a corresponding relation of the pointing modes.

Description

The telechirics of changeable different directing modes and remote control thereof

Technical field

The invention provides a kind of telechirics and remote control thereof of changeable different directing modes, relate in particular to a kind of different directing mode control codes that transmitted by the different radio transport module of telepilot according to electronic installation reception to switch telechirics and the remote control thereof of different directing modes.

Background technology

Recently in order to meet the product of box, multimedia player, blue light player etc. digital home on the TV that operating function is more and more powerful (as Web TV etc.) or the machine on TV side, and develop of all kinds and be different from the new telepilot product of traditional remote controller.In the time that box on machine has the browser of built-in online, just need to point to interface and remove operating browser for instance; In the time having function of searching or the demand of input network address, just need to arrange input interface.Some product connects wireless mouse and keyboard and goes to meet user's non-directive direction operation and input demand, and some product is arranged in pairs or groups and supported the device of non-directive element, as Trackpad or trace ball etc.If but directly hold or horizontally cannot carry out switching direction control or point to the direction of operating of vernier in television system according to user's holding mode while holding telepilot as user, can make the steer direction of user on telepilot can be inconsistent with the moving direction of the shown sensing vernier of TV, and cause the difficulty in use.Therefore, how designing a kind of easy to operately and have concurrently and use input media and the telechirics of hommization, is just one of important topic of the required effort of telecontrol engineering now.

Summary of the invention

The invention provides a kind of telechirics and remote control thereof of changeable different directing modes, to solve the above problems.

Claim of the present invention discloses a kind of telechirics of changeable different directing modes, it includes a telepilot, it includes one first wireless transport module, and it is used for transmitting one first wireless signal, and this first wireless signal includes one first directing mode control code; One second wireless transport module, it is used for transmitting one second wireless signal, and this second wireless signal includes one second directing mode control code; An and control module, it is coupled in this first wireless transport module and this second wireless transport module, and this control module is used for controlling this first wireless transport module or this second wireless transport module is exported respectively this first directing mode control code or this second directing mode control code.This telechirics also includes an electronic installation, and it includes a display module, and it is used for showing object; One memory module, it is used for storing a directing mode corresponding relation of corresponding this first directing mode control code and this second directing mode control code; One the 3rd wireless transport module, it is used for receiving this first directing mode control code or this second directing mode control code that this first wireless transport module or this second wireless transport module transmit respectively; An and logical block, it is coupled in this display module, this memory module and the 3rd wireless transport module, this directing mode corresponding relation that this first directing mode control code that this logical block is used for receiving according to the 3rd wireless transport module or this second directing mode control code and this memory module are stored, manipulates respectively this shown demonstration object of this display module and moves under one first directing mode or one second directing mode.

Claim of the present invention also discloses a kind of remote control thereof of changeable different directing modes, it includes the following step: one first wireless transport module of a telepilot utilizes Radio Transmission Technology transmission one first wireless signal to electronic installation, and wherein this first wireless signal includes one first directing mode control code; One second wireless transport module of this telepilot utilizes Radio Transmission Technology transmission one second wireless signal to this electronic installation, and wherein this second wireless signal includes one second directing mode control code; And this electronic installation is according to this first directing mode control code or this second directing mode control code and the directing mode corresponding relation that receive, manipulates respectively a demonstration object and moves under one first directing mode or one second directing mode.

The present invention mainly utilizes the different directing mode control codes that electronic installation reception is transmitted by the different radio transport module of telepilot to grip the holding mode of telepilot to judge user, by judging changeable different directing mode of different holding modes, just can utilize thus same sensing interface to be combined into the operation of multiple directing mode (as lateral operation and directly to operation) according to system requirements, and do not need to configure up and down direction key and non-direction directional element using the operation-interface as different directing modes simultaneously, and after telepilot is opened, below using when input interface, the sensing interface that can be correctly simultaneously utilizes top is as direction operation up and down, therefore the invention provides a kind of easy to operate and have concurrently and use telechirics and the remote control mode of hommization.

Brief description of the drawings

Fig. 1 is the schematic diagram of embodiment of the present invention telechirics.

Fig. 2 is the function block schematic diagram of embodiment of the present invention telechirics.

Fig. 3 and Fig. 4 are that embodiment of the present invention telepilot is in the schematic diagram of different conditions.

Fig. 5 to Figure 10 is respectively the embodiment of the present invention the first module and the second module and relatively moves to the inner structure schematic diagram of diverse location.

Figure 11 is the process flow diagram that embodiment of the present invention telechirics is switched the remote control thereof of different directing modes.

[main element symbol description]

50 telechirics 52 telepilots

54 electronic installation 56 first modules

58 first input interface 60 second modules

62 second input interfaces 64 point to interface

66 detecting unit 68 driver modules

70 first wireless transport module 72 second wireless transport modules

74 control module 76 display modules

78 memory modules 80 the 3rd wireless transport module

82 logical blocks

Step 100,102,104,106,108

Embodiment

Refer to Fig. 1 and Fig. 2, Fig. 1 is the schematic diagram of the embodiment of the present invention one telechirics 50, and Fig. 2 is the function block schematic diagram of embodiment of the present invention telechirics 50.Telechirics 50 includes a telepilot 52, and it is used for far-end remote control one electronic installation 54, and electronic installation 54 can be a television equipment (as Web TV) or a computer installation etc.Refer to Fig. 1 to Fig. 4, Fig. 3 and Fig. 4 are that embodiment of the present invention telepilot 52 is in the schematic diagram of different conditions, telepilot 52 includes one first module 56, on it, be provided with one first input interface 58, the first input interface 58 can include multiple keyboards for instance, and it is used to provide the demand that user carries out function of searching or inputs network address; Telepilot 52 includes one second module 60, it is installed on a side of the first module 56 in the mode that can slide with respect to the first module 56, in the second module 60, be provided with one second input interface 62 and and point to interface 64, the second input interface 62 can include multiple multimedia control buttons for instance, such as channel selection key, volume key, play button etc., and pointing to interface 64 can be that the non-directive elements such as Trackpad, rocking bar or trace ball are carried out direction to control, or carries out direction to control etc. with four-way button.

In Fig. 3, the first module 56 and the second module 60 relative sliding to primary importances, meaning i.e. the second module 60 and the first position of module 56 in mutual closure; In Fig. 4, the first module 56 and second module 60 relative sliding to second places, meaning i.e. the first module 56 and the second position of module 60 in mutual unlatching.In general, the second input interface 62 of the second module 60 configures the normal multimedia control button using, and the first input interface 58 of the first module 56 configures the keyboard of less use, therefore in the time that user only needs to use a teleswitch merely the audio-visual broadcasting of 52 far-ends manipulation multi-medium datas, corresponding the second module 60 the first module 56 can be slid into this primary importance, and only operate the second input interface 62, take volume therefore can reduce telepilot 52 entirety; And carry out data whens input when user need utilize keyboard, can be again by the first module 56 and the second module 60 relative slidings to this second place, use and expose the first input interface 58 to provide user to input data.

Moreover telepilot 52 also includes a detecting unit 66, it is used for detecting the relative position of the first module 56 and the second module 60, uses corresponding output one detection signal.Refer to Fig. 5 to Figure 10, Fig. 5 to Figure 10 is respectively the embodiment of the present invention the first module 56 and the second module 60 and relatively moves to the inner structure schematic diagram of diverse location, for instance, detecting unit 66 can be a change-over switch, it is pushed switching in the time of the first module 56 and the second module 60 relative sliding, use this detection signal of corresponding output, the first module 56 and the second module 60 can be utilized two driver modules 68 (as spring or torsion spring etc.) to reach and drive the effect of sliding.When user promotes the second module 60, so that the first module 56 and the second module 60 position (as shown in Fig. 5 and Fig. 6) in mutual closure switches to the position (as shown in Fig. 7 and Fig. 8) of Semi-folding, last to reach in the process of the first module 56 and the second module 60 position (as shown in Figures 9 and 10) in mutual unlatching, the structural member that is connected in the second module 60 can promote detecting unit 66, so that its this detection signal of corresponding output, just can learn thus the change of the first module 56 and the second module 60 relative positions, that is to say that detecting unit 66 can be used to detect the first module 56 and the second module 60 relative slidings to this primary importance or this second place, use this detection signal of corresponding output.Except above-described embodiment; the present invention also can utilize other testing mechanisms; as optical inductor or magnetic reed switch etc. reach the object that detects the first module 56 and the second module 60 relative positions, meaning is as long as the mechanism that can detect the first module 56 and the second module 60 relative positions all belongs to the scope that the present invention protects.

Please continue to refer to Fig. 2, telepilot 52 also includes one first wireless transport module 70, and it is used for transmitting one first wireless signal, and this first wireless signal includes one first directing mode control code; Telepilot 52 also includes one second wireless transport module 72, and it is used for transmitting one second wireless signal, and this second wireless signal includes one second directing mode control code.Telepilot 52 also includes a control module 74, it is coupled in detecting unit 66, the first wireless transport module 70 and the second wireless transport module 72, control module 74 is used for controlling the first wireless transport module 70 or the second wireless transport module 72 is exported respectively this first directing mode control code or this second directing mode control code, and is used for exporting the signal of corresponding this detection signal.

In addition, electronic installation 54 includes a display module 76, and it is used for showing object, and display module 76 can be a display screen for instance, and it is used for showing as pointing to the demonstration object of vernier; Electronic installation 54 also includes a memory module 78, it is used for storing this directing mode control code and a directing mode corresponding relation that points to interface 64, and can be learnt in the time that electronic installation 54 receives this first directing mode control code or this second directing mode control code by this directing mode corresponding relation this shown display module 76 demonstration object and sensing interface 64 need be corresponded to which kind of directing mode.Electronic installation 54 also includes one the 3rd wireless transport module 80, and it is used for receiving this first directing mode control code or this second directing mode control code that the first wireless transport module 70 or the second wireless transport module 72 transmit respectively.Electronic installation 54 also includes a logical block 82, it is coupled in display module 76, memory module 78 and the 3rd wireless transport module 80, logical block 82 can be used to this first directing mode control code or this second directing mode control code that receive according to the 3rd wireless transport module 80, the signal of corresponding this detection signal that the 3rd wireless transport module 80 receives, this directing mode corresponding relation of storing with memory module 78, manipulate the movement of this shown demonstration object of display module 76, for example manipulate this shown demonstration object of display module 76 moves under one first directing mode or one second directing mode, wherein the steer direction of this first directing mode and this second directing mode can differ 90 degree.

In addition, the first wireless transport module 70 and the second wireless transport module 72 can use respectively infrared transmission technical transmission wireless signal to the three wireless transport modules 80, because infrared transmission has the restriction of directive property and distance, as in the emission angle at 0 degree angle, infrared signal intensity decays hardly, but in the time that emission angle is larger, infrared signal strength retrogression is just more and more obvious.Therefore application infrared ray has the feature of directive property, can design the mutual vertical both sides that the first wireless transport module 70 and the second wireless transport module 72 are arranged at telepilot 52, therefore the first wireless transport module 70 is used for transmitting this first wireless signal in a first direction D1, the second wireless transport module 72 is used for transmitting this second wireless signal in a second direction D2, and wherein this first direction D1 and this second direction D2 can differ in fact 90 degree.And in the time that the 3rd wireless transport module 80 of electronic installation 54 receives this first directing mode control code that the first wireless transport module 70 transmits, telepilot 52 can be to put holds orientation in always, and in the time that the 3rd wireless transport module 80 receives this second directing mode control code that the second wireless transport module 72 transmits, telepilot 52 can be to be put in a horizontal orientation of holding, and wherein this directly holds orientation and this horizontal orientation of holding can differ in fact 90 degree.In addition, the first wireless transport module 70 and the second wireless transport module 72 also can be designed to transmit respectively lightwave signal or acoustic signals to the three wireless transport modules 80 etc. of different frequency, use the wireless signal that transmitted by the first wireless transport module 70 or the second wireless transport module 72 of difference the 3rd wireless transport module 80 acceptance, directly hold orientation or this horizontal orientation of holding so that judge that telepilot 52 is put in this.

Refer to Figure 11, Figure 11 is the process flow diagram that embodiment of the present invention telechirics 50 is switched the remote control thereof of different directing modes, and it includes the following step:

Step 100: control module 74 manipulates the operation of pointing to interface 64 according to user, controls the first wireless transport module 70 and utilizes Radio Transmission Technology transmission to have this first wireless signal of this first directing mode control code.

Step 102: control module 74 manipulates the operation of pointing to interface 64 according to user, controls the second wireless transport module 72 and utilizes Radio Transmission Technology transmission to have this second wireless signal of this second directing mode control code.

Step 104: the detecting unit 66 of telepilot 52 detects the relative position of the first module 56 and the second module 60, use this detection signal of corresponding output to control module 74, and control module 74 is controlled the first wireless transport module 70 or the second wireless transport module 72 is exported the signal of corresponding this detection signal to the 3rd wireless transport module 80 of electronic installation 54.

Step 106: the signal of corresponding this detection signal that this first directing mode control code that logical block 82 receives according to the 3rd wireless transport modules 80 or this second directing mode control code, the 3rd wireless transport module 80 receive, with this directing mode corresponding relation that memory module 78 is stored, manipulate respectively this shown demonstration object of display module 76 and move under this first directing mode or this second directing mode.

Step 108: finish.

At this, above-mentioned steps is illustrated further, no matter being straight gripping or horizontal type, user grips telepilot 52, in the time that user manipulates the sensing interface 64 of telepilot 52, control module 74 all can manipulate the operation of pointing to interface 64 according to user, controls the first wireless transport module 70 and the second wireless transport module 72 and utilizes respectively Radio Transmission Technology transmission to have this first wireless signal and this second wireless signal with this second directing mode control code of this first directing mode control code.For instance, can in this first wireless signal of this first direction D1 (directly holding orientation) and this second direction D2 (the horizontal orientation of holding) and this second wireless signal, insert to be respectively marked as and directly hold direction and horizontal this first directing mode control code and this second directing mode control code of holding direction, in the time that the 3rd wireless transport module 80 of electronic installation 54 receives the wireless signal that the first wireless transport module 70 or the second wireless transport module 72 send, just can differentiate this signal by this first directing mode control code or this second directing mode control code is sent out by which wireless transport module, use again and judge that telepilot 52 is for directly holding or horizontal holding, and the foundation that telepilot 52 is positioned at this and directly holds orientation or this horizontal information of holding orientation and can be used as the directing mode that points to interface 64.

For instance, taking infrared transmitted signal as example, if infrared ray instruction 00ff02fd is defined as playing function at electronic installation 54 ends, definable the first wireless transport module 70 is launched infrared ray instruction 00ff02fd, the second wireless transport module 72 is launched infrared ray instruction 01ff02fd, no matter receive it is that corresponding playing function is all carried out in the infrared ray instruction of 00ff02fd or 01ff02fd when electronic installation 54.If infrared ray instruction 00ff02fd is defined as the shown vernier of current display module 76 at electronic installation 54 ends and moves 200 pixels to right bit, definable the first wireless transport module 70 is launched infrared ray instruction 00ff02fd, the second wireless transport module 72 is launched infrared ray instruction 01ff02fd, when electronic installation 54 is received infrared ray instruction 00ff02fd, logical block 82 can judge that telepilot 52 is at present for directly holding orientation, therefore can be controlled the shown vernier of display module 76 toward moving right 200 pixels (with respect to this first directing mode); If receive infrared ray instruction 01ff02fd, can judge that telepilot 52 is the horizontal orientation of holding at present, therefore logical block 82 can be controlled up mobile 200 pixels (with respect to this second directing mode) of the shown vernier of display module 76.Thus shown this demonstration object of display module 76 inerrably corresponding user's steer direction move, put in directly holding Huo Hengwo orientation, orientation by judging telepilot 52, can switch accordingly the steer direction of pointing on interface 64, to avoid user different in the moving direction of the steer direction of pointing to interface 64 this demonstration object shown from display module 76, and cause the difficulty in use.In addition, this the first directing mode control code that the logical block 82 of electronic installation 54 also can receive according to the 3rd wireless transport module 80 or the number of times of this second directing mode control code and this directing mode corresponding relation that memory module 78 is stored, manipulate respectively this shown demonstration object of display module 76 moves under this first directing mode or this second directing mode, if that is to say wireless signal because the reflection of indoor object, the wireless signal of the first wireless transport module 70 and the second both direction that wireless transport module 72 is launched all can be received by the 3rd wireless transport module 80 of electronic installation 54, logical block 82 can be according to the directing mode control code of several continuous signals, judge that the corresponding direction of received more directing mode control code is the gripping direction of telepilot 52.

In addition, the directing mode control code receiving except aforementioned utilization is differentiated telepilot 52 for directly holding or horizontal holding orientation, also optionally adds relative position by detecting the first module 56 and the second module 60 to be used as the foundation of the directing mode of decision sensing interface 64.The aforementioned mechanism of can utilizing the detecting unit 66 of telepilot 52 detects the relative position of the first module 56 and the second module 60, use this detection signal of corresponding output to control module 74, and control module 74 can be controlled the first wireless transport module 70 or the second wireless transport module 72 is exported the signal of corresponding this detection signal to the 3rd wireless transport module 80 of electronic installation 54, therefore the mutual closure of the first module 56 and the second module 60 or opening can be used as the foundation of the directing mode of aid in later judgement sensing interface 64.

For instance, when judging that the first module 56 and the second module 60 relative slidings to this primary importance and telepilot 52 put in the time that this directly holds orientation, can control this shown demonstration object of display module 76 and move under this first directing mode; When judging that the first module 56 and the second module 60 relative slidings to this second place and telepilot 52 put in this horizontally while holding orientation, can control this shown demonstration object of display module 76 and move under this second directing mode; When judging that the first module 56 and the second module 60 relative slidings to this second place and telepilot 52 put in the time that this directly holds orientation, can control this shown demonstration object of display module 76 and move under this first directing mode; And when judging that the first module 56 and the second module 60 relative slidings to this primary importance and telepilot 52 put in this horizontally while holding orientation, can control this shown demonstration object of display module 76 and move under this first directing mode.Meaning is only when judge the first module 56 and the second module 60 relative slidings to this second place (position of unlatching mutually) and judging that telepilot 52 is positioned at these horizontal orientation two conditions of holding when being all establishment, logical block 82 sides can manipulate this shown demonstration object of display module 76 and move under this second directing mode, move under this first directing mode and all manipulate this shown demonstration object of display module 76 under other conditions.That is to say, when user by the first module 56 and the second module 60 relative slidings to this second place (position of mutually opening) and horizontal while holding telepilot 52, electronic installation 54 can switch to this second directing mode by the directing mode that points to interface 64, the mode that user can horizontally hold telepilot 52 in this pattern operates points to interface 64, and shown this demonstration object of display module 76 inerrably corresponding user's steer direction move.Otherwise, when user by the first module 56 and the second module 60 relative slidings to this primary importance (closed position mutually) and while directly holding telepilot 52, electronic installation 54 can switch to this first directing mode by the directing mode that points to interface 64, the mode that user can directly hold telepilot 52 in this pattern operates points to interface 64, and shown this demonstration object of display module 76 inerrably corresponding user's steer direction moves, the steer direction that meaning differs 90 degree with this second directing mode on same sensing interface 64 operate.And Rule of judgment of the present invention can be not limited to aforesaid way, look closely actual design demand and determine.From the above, the mutual closure of the first module 56 and the second module 60 or opening are optionally pointed to the foundation of the directing mode of interface 64 as follow-up judgement, that is to say and can only utilize directing mode control code that electronic installation 54 receives as judging that telepilot 52 is positioned at this and directly holds orientation or this horizontal information of holding orientation, and the follow-up foundation of pointing to the directing mode of interface 64 as judgement, its design can be looked closely actual demand and be determined.

On the other hand, in the time of user's opening remote control device 52 (the first module 56 and the second module 60 slide into the position of mutual unlatching), can be considered that next user needs the horizontal telepilot 52 of holding with the input of typewriting in the first input interface 58, and in order to judge that more accurately whether above-mentioned action is misoperation or still without horizontal demand of holding manipulation telepilot 52, can add and utilize electronic installation 54 receptions to be gripped the mechanism of telepilot 52 states as sensing user by this first directing mode control code of the first wireless transport module 70 or the second wireless transport module 72 or this second directing mode control code, meaning judges the first module 56 and the second module 60 relative slidings to the position of unlatching mutually and judges that telepilot 52 is positioned at these horizontal orientation two conditions of holding when being all establishment, just the directing mode that points to interface 64 can be switched to this second directing mode, four directions up and down while anticipating with respect to user's lateral operation telepilot 52 is to operator scheme, and the directing mode that points to interface 64 can be switched to this first directing mode under other states, meaning with respect to user the four directions up and down during directly to remote controller 52 to operator scheme, just can switch accordingly thus the steer direction of pointing on interface 64, to avoid user different in the moving direction of the steer direction of pointing to interface 64 this demonstration object shown from display module 76, and cause the difficulty in use.Grip the state of telepilot 52 from user and the pairing condition of different directing modes can be not limited to above-described embodiment as for the folding condition of telepilot 52, it is looked closely actual design demand and determines.

Compared to prior art, the present invention mainly utilizes the different directing mode control codes that electronic installation reception is transmitted by the different radio transport module of telepilot to grip the holding mode of telepilot to judge user, by judging changeable different directing mode of different holding modes, just can utilize thus same sensing interface to be combined into the operation of multiple directing mode (as lateral operation and directly to operation) according to system requirements, and do not need to configure up and down direction key and non-direction directional element using the operation-interface as different directing modes simultaneously, and after telepilot is opened, below using when input interface, the sensing interface that can be correctly simultaneously utilizes top is as direction operation up and down, therefore the invention provides a kind of easy to operate and have concurrently and use telechirics and the remote control mode of hommization.

The foregoing is only embodiments of the invention, all equalizations of doing according to the claims in the present invention book change and modify, and all should belong to the claimed scope of the claims in the present invention book.

Claims (26)

1. a telechirics for changeable different directing modes, it includes:

One telepilot, it includes:

One first module, is provided with one first input interface on it;

One second module, it is provided with one second input interface and and points to interface can be installed on respect to the mode of this first module slip a side of this first module in this second module;

One detecting unit, is used for detecting the relative position of this first module and this second module, uses corresponding output one detection signal;

One first wireless transport module, it is used in first direction transmission one first wireless signal, and this first wireless signal includes one first directing mode control code;

One second wireless transport module, it is used in second direction transmission one second wireless signal, and this second wireless signal includes one second directing mode control code; And

One control module, it is coupled in this first wireless transport module, this second wireless transport module and this detecting unit, this control module receives this detection signal, is used for controlling this first wireless transport module or this second wireless transport module and exports respectively the signal of this first directing mode control code or this second directing mode control code and corresponding this detection signal; And

One electronic installation, it includes:

One display module, it is used for showing object;

One memory module, it is used for storing a directing mode corresponding relation of corresponding this first directing mode control code and this second directing mode control code;

One the 3rd wireless transport module, it is used for putting and in the time holding orientation, receiving this first directing mode control code that this first wireless transport module transmits always in this telepilot, or put in one horizontal while holding orientation in this telepilot, receive this second directing mode control code that this second wireless transport module transmits, the 3rd wireless transport module is separately used for receiving the signal of corresponding this detection signal; And

One logical block, it is coupled in this display module, this memory module and the 3rd wireless transport module, the signal of corresponding this detection signal that this first directing mode control code that this logical block is used for receiving according to the 3rd wireless transport module or this second directing mode control code, the 3rd wireless transport module are received, with this directing mode corresponding relation that this memory module is stored, manipulate respectively this shown demonstration object of this display module and move under one first directing mode or one second directing mode.

2. telechirics as claimed in claim 1, wherein in the time that the 3rd wireless transport module receives this first directing mode control code that this first wireless transport module transmits, this telepilot is put and is held orientation in always, and in the time that the 3rd wireless transport module receives this second directing mode control code that this second wireless transport module transmits, this telepilot is put in a horizontal orientation of holding.

3. telechirics as claimed in claim 2, wherein this first direction and this second direction differ in fact 90 degree, this directly holds orientation and this horizontal orientation of holding differs in fact 90 degree, and the steer direction of this first directing mode and this second directing mode differs 90 degree.

4. telechirics as claimed in claim 2,

The signal that wherein this control module is also used for controlling this first wireless transport module or corresponding this detection signal of this second wireless transport module output is to the 3rd wireless transport module, and this logical block is this first directing mode control code or this second directing mode control code that is also used for receiving according to the 3rd wireless transport module, the signal of corresponding this detection signal that the 3rd wireless transport module receives, this directing mode corresponding relation of storing with this memory module, manipulate respectively this shown demonstration object of this display module moves under this first directing mode or this second directing mode.

5. telechirics as claimed in claim 4, wherein this detecting unit is a change-over switch, it is pushed switching in the time of this first module and this second module relative sliding, uses this detection signal of corresponding output.

6. telechirics as claimed in claim 4, wherein this telepilot also includes at least one driver module, and it is used for driving this second module to slide with respect to this first module.

7. telechirics as claimed in claim 6, wherein this driver module is a spring or a torsion spring.

8. telechirics as claimed in claim 4, wherein this detecting unit is used for detecting this first module and this second module relative sliding to primary importance or a second place, use this detection signal of corresponding output, wherein this primary importance is this second module and this first module position of closure mutually, and this second place is the position that this first module and this second module are opened mutually.

9. telechirics as claimed in claim 8, wherein this logical block is used for detecting this first module and this second module relative sliding to this primary importance and this telepilot put in the time that this directly holds orientation in this detecting unit, controls this shown demonstration object of this display module and moves under this first directing mode.

10. telechirics as claimed in claim 8, wherein this logical block is used for detecting this first module and this second module relative sliding to this second place and this telepilot in this detecting unit and puts in this horizontally while holding orientation, controls this shown demonstration object of this display module and moves under this second directing mode.

11. telechiricss as claimed in claim 8, wherein this logical block is used for detecting this first module and this second module relative sliding to this second place and this telepilot put in the time that this directly holds orientation in this detecting unit, controls this shown demonstration object of this display module and moves under this first directing mode.

12. telechiricss as claimed in claim 8, wherein this logical block is used for detecting this first module and this second module relative sliding to this primary importance and this telepilot in this detecting unit and puts in this horizontally while holding orientation, controls this shown demonstration object of this display module and moves under this first directing mode.

13. telechiricss as claimed in claim 1, this the first directing mode control code that wherein this logical block is used for receiving according to the 3rd wireless transport module or the number of times of this second directing mode control code and this directing mode corresponding relation that this memory module is stored, manipulate respectively this shown demonstration object of this display module and move under this first directing mode or this second directing mode.

14. telechiricss as claimed in claim 1, wherein this first wireless transport module and this second wireless transport module use respectively infrared transmission technical transmission wireless signal to the 3rd wireless transport module.

15. telechiricss as claimed in claim 1, wherein this first wireless transport module and this second wireless transport module transmit respectively the lightwave signal of different frequency or acoustic signals to the 3rd wireless transport module.

The remote control thereof of 16. 1 kinds of changeable different directing modes, it includes the following step:

One first wireless transport module of one telepilot utilizes Radio Transmission Technology in first direction transmission one first wireless signal to electronic installation, and wherein this first wireless signal includes one first directing mode control code;

One second wireless transport module of this telepilot utilizes Radio Transmission Technology in second direction transmission one second wireless signal to this electronic installation, and wherein this second wireless signal includes one second directing mode control code;

One detecting unit detects one first module of telepilot and the relative position of the second module, uses corresponding output one detection signal;

The signal of this of this telepilot the first wireless transport module or corresponding this detection signal of this second wireless transport module transmission is to this electronic installation; And

This electronic installation receives the signal of corresponding this detection signal, and put in the time holding orientation in this telepilot always, receive this first directing mode control code that this first wireless transport module transmits, or put in one horizontal while holding orientation in this telepilot, receive this second directing mode control code that this second wireless transport module is transmitted, and according to this first directing mode control code or this second directing mode control code that receive, the signal of corresponding this detection signal, with directing mode corresponding relation, manipulate respectively a demonstration object moves under one first directing mode or one second directing mode.

17. remote control thereofs as claimed in claim 16, wherein in the time that this electronic installation receives this first directing mode control code that this first wireless transport module transmits, this telepilot is put and is held orientation in always, and in the time that this electronic installation receives this second directing mode control code that this second wireless transport module transmits, this telepilot is put in a horizontal orientation of holding.

18. remote control thereofs as claimed in claim 17, wherein this first direction and this second direction differ in fact 90 degree, this directly holds orientation and this horizontal orientation of holding differs in fact 90 degree, and the steer direction of this first directing mode and this second directing mode differs 90 degree.

19. remote control thereofs as claimed in claim 17, its detecting unit that also comprises this telepilot detects one first module and one second module relative sliding to primary importance or a second place of this telepilot, wherein this primary importance is this second module and this first module position of closure mutually, and this second place is the position that this first module and this second module are opened mutually.

20. remote control thereofs as claimed in claim 19, wherein this electronic installation detects this first module and this second module relative sliding to this primary importance and this telepilot put in the time that this directly holds orientation in this detecting unit, controls this demonstration object and moves under this first directing mode.

21. remote control thereofs as claimed in claim 19, wherein this electronic installation detects this first module and this second module relative sliding to this second place and this telepilot in this detecting unit and puts in this horizontally while holding orientation, controls this demonstration object and moves under this second directing mode.

22. remote control thereofs as claimed in claim 19, wherein this electronic installation detects this first module and this second module relative sliding to this second place and this telepilot put in the time that this directly holds orientation in this detecting unit, controls this demonstration object and moves under this first directing mode.

23. remote control thereofs as claimed in claim 19, wherein this electronic installation detects this first module and this second module relative sliding to this primary importance and this telepilot in this detecting unit and puts in this horizontally while holding orientation, controls this demonstration object and moves under this first directing mode.

24. remote control thereofs as claimed in claim 16, wherein this electronic installation is according to this first directing mode control code or this second directing mode control code and this directing mode corresponding relation that receive, manipulate respectively this demonstration object moves under this first directing mode or this second directing mode, comprise this electronic installation according to this first directing mode control code receiving or number of times and this directing mode corresponding relation of this second directing mode control code, manipulate respectively this demonstration object and move under this first directing mode or this second directing mode.

25. remote control thereofs as claimed in claim 16, wherein this first wireless transport module and this second wireless transport module use respectively infrared transmission technical transmission wireless signal to this electronic installation.

26. remote control thereofs as claimed in claim 16, wherein this first wireless transport module and this second wireless transport module transmit respectively the lightwave signal of different frequency or acoustic signals to this electronic installation.